Abstract: A pulse transmitter for fluid metering includes concentric gearing, with the exciter gear concentric with the main shaft in the center. Because of this concentricity, one can put practically any number of additional coils (typically four) to get four or more outputs. Also, each coil could be dual output to get eight outputs from four coils. Each coil preferably produces 1000 pulses per revolution of the main shaft. Because of its compactness and light weight, this pulse transmitter has a more practical application in the liquid metering industry than prior transmitters.

Abstract: The present invention is directed to an apparatus and method for monitoring the continued rotation of a non-magnetically attractive indicator, e.g., a rotating, plastic dial, disc, wheel, arm or the like of a meter. The present invention is particularly useful for detecting the satisfactory operation of flow meters, e.g., meters used to determine the flow of fluids from oil and gas wells, in transmission lines and in chemical processing plants. The present invention provides a system for monitoring the operation or rotation by employing a rotating, magnetically attractive actuator to actuate a magnetic switch which in turn actuates an electrical switch for producing a monitoring signal. The apparatus and method of the present invention provide a rigid, dependable, accurate and wear-free device for monitoring the continued operation of a flow or other meter.

Abstract: The present invention is directed to an apparatus useful for measuring the flow of an abrasive fluid. The present invention comprises a rotary metering device particularly useful for the measurement of oil well production fluids including sand and other abrasive materials. The present invention comprises a rotary metering device for repetitively producing a measuring chamber by the shuttle movement of a plurality of symmetrically disposed blades through slots in a rotor body into and out of a fluid flow channel between the rotor body and its housing. The rotor body of the present invention includes slots having surfaces comprised of a highly wear resistant metal, preferably having a hardness between about 40 and about 70 on the Rockwell C hardness scale to increase the service life of the meter.